How do you 3D print a stadium model? And what useful data can you collect from putting it through testing in a wind-tunnel specially designed in Qatar?
For the past six months, researchers at the College of Engineering at Qatar University have been providing all the answers, turning raw data on cooling technology and aerodynamics collected from the 1:300 scale model into value engineering solutions which help reduce the cost and improve the environmental footprint of the proposed stadiums for the 2022 FIFA World Cup Qatar.
“We take about a week to print one stadium model,” said Dr Saud Abdul Aziz Abdu Ghani, professor at the College of Engineering at Qatar University.
“It is a scale model and follows exactly the design of the proposed stadiums for the 2022 FIFA World Cup. We printed the parts of the stadium separately, put them together and then put the 3D printed stadium model into a wind tunnel for aerodynamics testing. The wind tunnel took seven months to design and build and is the first of its kind in the region.”
Once inside the wind tunnel, the scale model of the stadium is then analysed thoroughly as laser beams capture the flow of air over the design, with the measurements being processed by the Qatar University team through detailed analytics software.
“We can see the temperature per tier, add in variants such as sweat produced and amount of spectators, and then run the simulation and see the effect on the temperature inside the stadium,” he added. “For the cooling we want a minimal amount of air to go in, and we want the air inside to stay there. We can change the direction and simulate different wind directions at this facility.
“All of the design for the wind tunnel and everything you see here was done in Qatar, except the fan which is produced in Germany. We’ve tested two stadiums and a fan zone like this: Al Bayt Stadium, Al Wakrah Stadium and the fan zone for the 2014 FIFA World Cup Brazil held at Aspire Academy in Doha. Al Thumama Stadium will also be tested and we are currently printing the stadium.”
The Qatar University team works closely with the Supreme Committee for Delivery & Legacy (SC)’s Technical Delivery Office, who turn the findings from the wind tunnel into value engineering benefits for the stadiums under construction across Qatar.
“We are working closely with Qatar University on this exciting project which showcases the innovative approach we are taking towards the timely and cost-effective delivery of the stadiums for the 2022 FIFA World Cup,” said Yasir al-Jamal, SC Vice Chairman – Technical Delivery Office.
“We’ve done a lot of work with Qatar University’s team and made aerodynamic changes to our stadiums as a result. This creates a lot of saving through value engineering. They also look at the roof structure to minimalise the amount of steel, which will reduce energy and capital costs, and reduces the effect on the environment. In effect we are minimising the effect on the environment, as well as the cost and the operational cost.”
In his laboratory at Qatar University, Dr Saud and his team are pushing for innovative solutions to the design challenges received: “We have lasers which will give you the velocity vectors, so you see on the model what will happen when you open or close the roof. All the ideas we try are bounced back to the SC and the viable ones are incorporated in the design.”
“I believe this is the future of the stadium design industry. Testing used to be done on clay models, but this technology is now at the forefront of stadium design and is also being used for high-rise buildings in Qatar instead of sending them for aerodynamics testing in Canada or Germany as was previously done. You can print anything from cars to skulls for reconstructive surgery, using different materials including metal, titanium, and aluminium.”
And other countries have taken note of Qatar’s innovative knowledge and experience in the field, with one of Belgium’s largest future football stadiums in Brussels recently coming to Doha to test their design aerodynamics.
“We are very proud to be able to transfer Qatari knowledge to Europe as well. In their case we were asked to do testing on wind-driven rain. In Qatar we need to keep the cold in the stadiums, but in Belgium the challenge was to keep the rain out. We had to look at different types of rain and see how the spectators would be able to remain dry at all times including the wind factor,” concluded Dr Saud. “I am glad that I started working with the SC, because they are really looking for legacy on their projects and this wind tunnel is already helping to leave one for stadium design of the future across the world.”
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